CN113293817B - Hydraulic equipment for disassembling and assembling bucket tooth pin shaft - Google Patents

Abstract

The hydraulic equipment for disassembling and assembling the bucket tooth pin shaft comprises a motor, a power switch, an oil drum, a bidirectional gear pump, a shell, an oil cylinder, an oiling can, a high-pressure oil pipe, an overflow valve and an oil way integrated distribution block; the oil filling pot is arranged at the upper end of the oil drum; one side of the oil path integrated distribution block is arranged at one side of the oil drum, and the motor is arranged at the other side of the oil path integrated distribution block; the bidirectional gear pump is arranged on one side of the oil way integrated distribution block, and a power input shaft of the bidirectional gear pump and a power output shaft of the motor are arranged together; the oil drum and the oil cylinder are installed together; the overflow valve is arranged on the oil way integrated distribution block; the lower oil pipe of the oil cylinder and the lower oil inlet and outlet pipes of the oil way integrated distribution block are installed together through oil pipes; the casing is installed in the motor outside, and switch installs on the casing. The bucket tooth dismounting and mounting device is small in structure and convenient to use, the piston of the oil cylinder can move forwards to eject or insert the bucket tooth pin shaft and move backwards to return to an initial state only by controlling the power switch, and the bucket tooth dismounting and mounting efficiency is improved.

Description

Hydraulic equipment for disassembling and assembling bucket tooth pin shaft

Technical Field

The invention relates to the technical field of electric dismounting equipment, in particular to hydraulic equipment for dismounting and mounting a bucket tooth pin shaft.

Background

In order to improve the excavating efficiency of equipment such as an excavator, a plurality of bucket teeth are fixedly arranged at the front side end of an excavator bucket at intervals through a pin shaft. In practice, the teeth need to be replaced after a period of use due to breakage, wear, and the like. Before bucket teeth are replaced, a pin shaft is required to be ejected out of a pin shaft fixing hole of a bucket tooth fixing seat at the front end of the bucket, and then the bucket teeth required to be replaced are taken down; after bucket teeth are replaced, the pin shaft needs to be jacked into the fixing hole from the outside of the pin shaft fixing hole at the front end of the bucket, and then new bucket teeth are fixed.

In the prior art, because no suitable equipment exists, the operation is carried out in a mode of manually knocking the ejector rod by a hammer, so that the ejector rod is pushed into or the ejector pin shaft is ejected out, and manual operation brings great inconvenience to workers and has the defects of time and labor waste and low working efficiency. Based on the above, the equipment which does not need manual operation and can improve the efficiency of disassembling and assembling the bucket tooth pin shaft is especially necessary.

Disclosure of Invention

In order to overcome the defects that in the prior art, the manual operation is adopted for mounting and dismounting the pin shaft of the bucket tooth of the excavator, so that great inconvenience is brought to workers, time and labor are wasted, and the working efficiency is low, the hydraulic equipment provided by the invention has a compact structure, is convenient to use, does not need manual operation, can realize the extension or retraction of the front end of the piston of the oil cylinder by the workers only by simply operating a power switch, and further can conveniently push out or push in the pin shaft, so that the efficiency of dismounting and mounting the bucket tooth pin shaft is improved.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the hydraulic equipment for disassembling and assembling the bucket tooth pin shaft comprises a motor, a power switch, an oil drum, a bidirectional gear pump, a shell, an oil cylinder, an oiling can, an oil pipe, a high-pressure overflow valve and an oil way integrated distribution block; the oil can is characterized in that the oil can is arranged at the upper end of the oil drum; one side end of the oil drum is of a closed structure, the other side end of the oil drum is of an open structure, one side of the oil path integrated distribution block is installed at the outer end of the other side of the oil drum, and the motor is installed at the other side of the oil path integrated distribution block; the bidirectional gear pump is arranged at one side end of the oil path integrated distribution block and is positioned in the other side of the oil drum, and a power input shaft of the bidirectional gear pump is connected with a power output shaft of the motor through a coupler; the oil-way integrated distribution block is characterized in that a channel B and a channel A of the oil-way integrated distribution block are communicated with an oil port B and an oil port A of the bidirectional gear pump respectively, a lower oil drainage channel and a lower oil port are arranged at the lower end of the oil-way integrated distribution block, a fixed seat is arranged in the middle of the upper end of the oil-way integrated distribution block, a high-pressure overflow valve is arranged at the upper end in the fixed seat, an upper oil drainage channel is arranged at the upper end of the oil-way integrated distribution block, and the oil outlet of the high-pressure overflow valve is positioned at the upper end of the upper oil drainage oil duct; the lower end of the oil drum is arranged at the upper end of the oil cylinder; the lower oil inlet and outlet pipes at the lower ends of the lower oil ports of the oil way integrated distribution block and the upper end of the cylinder body of the oil cylinder are connected together through a high-pressure oil pipe; the casing is installed at the outside end of motor, oil drum, two-way gear pump, high-pressure overflow valve, the integrated distribution piece of oil circuit, and the casing upper end has the handle, and switch installs at the anterior lower extreme of handle.

Furthermore, sealing gaskets are respectively arranged between the motor and the oil path integrated distribution block and between the bidirectional oil cylinder and the oil path integrated distribution block.

Further, the oiler is matched with a kettle cover.

Furthermore, the oil cylinder can be matched with a plurality of lengthened connecting rods with different lengths, and the lengthened connecting rods are magnetically connected with the piston rod.

Furthermore, the lower oil port and the lower oil discharge channel are communicated with the channel A and the channel B respectively.

Further, intercommunication in draining passageway and the oil drum down.

The invention has the beneficial effects that: the bucket tooth pin shaft replacing device integrates all parts together, is small in structure, convenient to use and free of manual operation, when a pin shaft needs to be disassembled or installed, a worker transversely places the bucket tooth pin shaft replacing device between two bucket tooth fixing seats of an excavator, and the rear side end of the oil cylinder contacts with the front side end of the adjacent bucket tooth fixing seat of the bucket tooth pin shaft needing to be replaced to prevent subsequent reaction. In the ejection or jacking of the piston rod of the oil cylinder, a worker can control the working mode of the bidirectional gear pump to pump hydraulic oil into the oil cylinder or pump back hydraulic oil by simply controlling a power switch to realize the forward and reverse rotation control of the motor, so that the piston rod of the oil cylinder moves forwards to eject or jack the bucket tooth pin shaft and moves backwards to return to the initial state. The invention can conveniently push the pin shaft out or in, and improves the efficiency of disassembling and assembling the bucket teeth. Based on the above, the invention has good application prospect.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic diagram of the general structure of the present invention.

Fig. 2 is a schematic view of the split structure of the present invention.

Fig. 3 is a schematic diagram of the structure of the oil cylinder of the invention.

Fig. 4 is a schematic view of the structure of the motor and the bidirectional gear pump of the present invention.

Fig. 5 is a schematic diagram of the structure of the oil circuit integrated distribution block of the present invention.

Fig. 6 is a right view structural schematic diagram of the bidirectional gear pump of the invention.

Fig. 7 is a left side view schematic diagram of the bidirectional gear pump of the present invention.

Detailed Description

As shown in fig. 1, 2, 3, 4, 5, 6 and 7, the hydraulic equipment for disassembling and assembling the bucket tooth pin shaft comprises a DC24V/800W DC motor 1, a double-gear power switch 2, an oil drum 3 and a small drumThe oil pump comprises a bidirectional gear pump 4, a shell 5, an oil cylinder 6, a conical oiling can 7, a high-pressure oil pipe 8, a high-pressure overflow valve 9 and an oil way integrated distribution block 10; an oil filling hole with internal threads is formed in the middle of the upper end of the oil drum 3, and an oil filling can 7 is screwed into the internal threads of the oil filling hole through the external threads of the oil pipe in the middle of the lower end and is installed at the upper outer end of the oil drum 3; the left end of the cylindrical hollow oil drum 3 is of a closed structure, the right end of the cylindrical hollow oil drum 3 is of an open structure, the left part of the oil path integrated distribution block 10 is installed at the outer end of the right side of the oil drum 3 through a screw nut, the motor 1 is transversely installed at the outer end of the right side of the oil path integrated distribution block 10 through the screw nut, and the left end of a power output shaft of the motor 1 transversely enters the right end of the oil drum 3 through a guide pipe 101 in the middle of the oil path integrated distribution block 10; the bidirectional gear pump 4 is installed at the left end of the oil way integrated distribution block 10 through a screw nut and is positioned in the right end of the oil drum 3, and a middle power input shaft of the bidirectional gear pump 4 is connected with the left end of a power output shaft of the motor 1 through a coupling 11 through the screw nut; the front and rear ends of the left middle part of the oil circuit integrated distribution block are respectively attached to and communicated with the front and rear end oil ports B42 and A41 of the right middle part of the bidirectional gear pump 4, the front and rear lower ends of the oil circuit integrated distribution block are respectively provided with a lower oil discharge channel 105 and a lower oil port 104, the middle part of the upper end of the oil circuit integrated distribution block is provided with an internal thread seat, a high-pressure overflow valve 9 is arranged at the upper end of the oil circuit integrated distribution block through the external thread of the lower end of the high-pressure overflow valve 9, and the middle part of the upper end of the oil circuit integrated distribution block is provided with a piece of oil discharge channel 105 and a lower oil port 104

An over-mold drainage channel 106; after the high-pressure overflow valve 9 is installed, the oil outlet of the high-pressure overflow valve is positioned at the upper end of the upper oil drainage oil duct 106, a valve plate of the high-pressure overflow valve 9 shields the upper oil drainage oil duct 106 when the pressure is low, high-pressure oil in the lower oil port 104 of the oil way integrated distribution block does not flow back into the oil drum 3, the oil outlet is not shielded when the pressure high valve plate moves upwards, and the high-pressure oil in the lower oil port 104 of the oil way integrated distribution block flows back into the oil drum 3; the middle part of the outer lower end of the oil drum 3 is provided with a fixed frame 12 through a screw nut, and the lower end of the fixed frame 12 is arranged in the middle part of the outer upper end of the cylinder body of the transverse distribution oil cylinder 6; the right middle part of the upper end of the cylinder body 62 of the oil cylinder 6 is provided with an oil inlet and an oil outlet, and the cylinder bodyThe right part inside the oil passage integrated distribution block 10 is provided with a lower oil inlet and outlet pipe at the lower end of a lower oil port 104, and the upper end and the lower end of the high-pressure oil pipe 8 are respectively arranged between the lower oil inlet and outlet pipe of the lower oil port 104 and the lower oil inlet and outlet pipe 61; the shell 5 is provided with a front part and a rear part, the shell 5 is arranged at the outer side end of the motor 1, the oil drum 3, the bidirectional gear pump 4, the high-pressure overflow valve 9 and the oil way integrated distribution block 10 through screw nuts, the oiling can 7 is positioned outside the upper end of the shell 5, the upper end of the shell 5 is provided with a handle 51 (which is convenient for workers to carry the invention and meet the actual operation requirement), the power switch 2 is arranged at the lower end of the front part of the handle, and the operation key is positioned outside the lower end of the handle 51; two power input ends of the power switch 2 are electrically connected with two wiring ends of the power plug wire respectively, and two power output ends of the power switch 2 are electrically connected with positive and negative and positive power input ends of the motor 1 respectively.

As shown in fig. 1, 2, 3, 4, 5, 6 and 7, a sealing rubber gasket is respectively arranged between the motor 1 and the right outer end of the oil path integrated distribution block 10, and between the right side 4 of the bidirectional oil cylinder and the left end of the oil path integrated distribution block 10. The upper end of the refueling pot 7 is provided with external threads, and the refueling pot is matched with a pot cover 71 (the hydraulic oil can be added into the oil drum by opening the pot cover) with internal threads at the lower end. The oil cylinder can be matched with a plurality of lengthened connecting rods 13 with different lengths, and the right ends of the lengthened connecting rods 13 are magnetically connected with the left end of the piston 62. The lower oil port 104 and the lower oil discharge channel 105 are communicated with the channel A102 and the channel B103 respectively; the upper oil drainage channel 106 is communicated with the oil drum 3 and the channel A102 respectively. Hydraulic oil is filled in the oil drum 3. The oil cylinder comprises a cylinder cover 66, a cylinder body 62, a spring supporting rod fixing bolt 67, a piston 64, a spring supporting rod 68, a return spring 65 and a sealing piece 69, wherein the piston 64 is transversely arranged in the cylinder body 62, the left front end of the cylinder body 62 is sealed by the cylinder cover 66 through threads, the piston is positioned in the cylinder body 62, the piston 64 is in clearance fit between the outer surfaces of the middle part and the right part of the piston 64 and the inner surface of the cylinder body 62 and between the outer surface of the front part of the piston 64 and the inner surface of a shaft hole in the middle part of the cylinder cover 66 so that the piston 64 can move left and right in the cylinder body 62, and the sealing piece 69 is used for sealing between the two fit clearances; a return spring 65 is arranged in a hollow part from the middle part to the right part of the piston 64, the return spring 65 is sleeved at the outer side end of the support rod 68, the right rear end of the spring support rod 68 is fixed in the middle part of the right end of the cylinder body 62 through a spring support rod fixing screw 67, and the left end of the spring is positioned at the rear end of a limiting ring at the left front end of the spring support rod 68 (the right rear end of the spring support rod 65 is positioned in a guide hole at the right end of the hollow part of the piston, and the inner diameter of the guide hole is larger than the outer diameter of the spring support rod 68 and smaller than the outer diameter of the spring 65); when hydraulic oil enters the right part of the cylinder body 62 of the oil cylinder through the oil inlet/outlet 63 of the cylinder body 62, the piston 64 and the return spring 65 are pushed to move forwards, and meanwhile, the return spring 65 is in a compressed state, and the piston 64 is ejected; when the hydraulic oil in the cylinder 63 flows out from the oil inlet/outlet 63, the return spring 65 is reset from a compressed state to generate elastic force, so that the piston 64 is driven to move backwards and rightwards to reset, and the piston 64 retracts. The oil discharge channel 105 is communicated with the oil drum 5. The L-shaped reaction force supporting seat 14 is further installed at the lower end of the oil cylinder, a shaft hole which is transversely located in a straight line with the oil cylinder piston is formed in the middle of the left front end of the reaction force supporting seat 14, the inner diameter of the shaft hole 141 is larger than the outer diameter of the piston and the extension rod 13, and a certain distance of 5 cm is formed between the left front end of the reaction force supporting seat 14 and the left end of the oil cylinder.

As shown in fig. 1, 2, 3, 4, 5, 6 and 7, the present invention integrates the components together, and has the advantages of small structure, convenient use and no need of manual operation. When the pin shaft needs to be disassembled or assembled, a worker transversely puts the bucket tooth pin shaft replacing device between two bucket tooth fixing seats of an excavator, and the right rear outer side end of the oil cylinder 6 is in contact with the front side end of the adjacent bucket tooth fixing seat of the bucket tooth pin shaft needing to be replaced, so that subsequent reaction force is prevented. Before operation, the working personnel select extension bars with different lengths as required to ensure that the extension bars can be subsequently ejected out or pushed into the bucket tooth pin shaft (when the bucket tooth pin shaft is disassembled, the front end of a piston rod of the extension bar or the oil cylinder contacts one side end of the pin shaft; when the bucket tooth is installed, after the bucket tooth is placed into a corresponding bucket tooth fixing seat of the bucket, the working personnel puts a part with a smaller outer diameter at the front part of the pin shaft into one side end of the fixing seat, and then the front end of the piston rod of the extension bar or the oil cylinder contacts one side end of the pin shaft). Ejecting or pushing into the pin shaft, firstly connecting the power line of the equipment by an operator (a 24V storage battery power supply on an excavator and the like can be adopted), then carrying a hand-held part (a lifting handle 51) in the middle of the upper part of the equipment by a hand, pressing a button of a power switch 2 forward by a finger, electrifying the motor 1 to rotate forward, driving a driving shaft of the bidirectional gear pump 4 to rotate clockwise by a rotating shaft of the direct current motor 1 through a coupling 11, sucking oil from the inside of an oil drum 3 by the bidirectional gear pump 4 through an oil supplementing port 107 at the left tail part of the bidirectional gear pump 4 to enter the inside of the bidirectional gear pump 4, then discharging the oil through an oil port A41 at the rear end surface at the right part of the bidirectional gear pump 4, feeding the discharged high-pressure oil into the oil path integrated distribution block 10 from a passage A102 on the oil path integrated distribution block, dividing the hydraulic oil into two paths after entering the inside of the oil path integrated distribution block, feeding the one path into the lower part of an upper oil drainage passage 106 of a lower cavity of an overflow valve 9 through an inner pore passage (an upper oil path of the oil path integrated distribution block, the other path flows downwards through a lower oil port 104 at the lower part of the oil path integrated distribution block, the flowing hydraulic oil sequentially flows through a lower oil inlet and outlet pipe, a hard pipe (a high-pressure oil pipe 8) and a lower oil pipe 61, flows into the right end of the cylinder body 62 of the oil cylinder 6 from the oil inlet and outlet port 63 at the right upper end of the cylinder body 62 of the oil cylinder 6, a piston 64 of the oil cylinder is ejected forwards towards the left, a reset spring 65 is compressed and stressed, a piston rod 64 of the oil cylinder is subjected to strong hydraulic oil action to overcome the elastic acting force of the spring 65 and gradually extend forwards towards the left, a pin shaft is ejected or ejected into a pin shaft hole of the bucket tooth fixing seat, and the purpose of mounting or dismounting the pin shaft is achieved. When the piston 64 moves forwards to the stroke end of the oil cylinder leftwards or the load of the oil cylinder 6 is overlarge, and the system pressure exceeds the set safe pressure value of the overflow valve 9, the hydraulic oil can push the valve core of the overflow valve 9 to move upwards, the valve core of the overflow valve 9 is opened, and the hydraulic oil flows back into the oil drum 3 through the overflow pressure relief cavity (oil outlet) of the overflow valve 9 and the upper oil drainage channel 106, so that the whole hydraulic system can be kept to work in a relatively safe pressure interval at any time, and the hydraulic system is not damaged or the motor is burnt due to overlarge load.

As shown in fig. 1, 2, 3, 4, 5, 6, and 7, after the pin shaft is ejected or ejected, a worker presses the button of the power switch 2 backwards, the direct current motor 1 is powered and the rotating shaft thereof is rotated reversely, the main shaft of the direct current motor 1 drives the driving shaft of the bidirectional gear pump 4 to rotate anticlockwise through the coupling 11, the bidirectional gear pump 4 sucks oil through the oil port a41 on the right rear end face thereof, meanwhile, the hydraulic oil pressure in the cylinder body of the oil cylinder 6 disappears, the return spring 65 inside the oil cylinder 6 drives the piston 64 to move backwards and rightwards under the action of the elastic force, the hydraulic oil in the cylinder body 62 of the oil cylinder is discharged out of the oil cylinder 6 through the oil discharge pipe 61, and then the piston 64 of the oil cylinder retracts backwards and rightwards; hydraulic oil discharged from the inside of the oil cylinder sequentially passes through the high-pressure oil pipe 8, then enters the inside of the oil path integrated distribution block through the lower oil port 104 at the lower part of the distribution valve body, then enters the inside oil suction cavity of the bidirectional gear pump 4 through the oil port A41 at the rear end surface of the right part of the bidirectional gear pump 4 through the channel A102 of the oil path integrated distribution block, and is discharged through the oil port B42 at the front end surface of the right part of the bidirectional gear pump 4, and the discharged hydraulic oil enters the inside of the distribution valve body 10 through the channel B103 of the distribution valve body and then enters the oil drum 3 through the lower oil channel 105. And finishing the backflow work of the hydraulic oil. When the oil in the oil drum 3 is reduced due to loss of the equipment in the working process, the oil can be supplemented into the oil drum 3 through the oil adding pot 7. In the specific work of the invention, the motors 1 with different specification parameters and the bidirectional gear pumps 4 with different parameters can be selected according to different loads, and whether a structure for eliminating the reaction force supporting seat 14 is added or not can be selected according to the types of the loads (the reaction force supporting seat 14 can be sleeved at the front left side end of the bucket tooth fixing seat of the bucket tooth pin shaft to be replaced and ejected out of and pushed into the pin shaft, the right side of the left upper end of the reaction force supporting seat 14 is contacted with the front left side end of the bucket tooth fixing seat of the bucket tooth pin shaft to be replaced to prevent the whole equipment from moving backwards, so that the pin shaft can be ejected out of and pushed into the pin shaft through the left shaft hole on the reaction force supporting seat 14 after the piston moves forwards). The invention integrates all the parts together, has small structure, convenient use and no need of manual operation, can conveniently eject or insert the pin shaft, and improves the disassembly and assembly efficiency of disassembling and assembling the bucket teeth.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description refers to embodiments, the embodiments do not include only one independent technical solution, and such description is only for clarity, and those skilled in the art should take the description as a whole, and the technical solutions in the embodiments may be appropriately combined to form other embodiments that can be understood by those skilled in the art.

Claims (4)

1. The hydraulic equipment for disassembling and assembling the bucket tooth pin shaft comprises a motor, a power switch, an oil drum, a bidirectional gear pump, a shell, an oil cylinder, an oiling can, an oil pipe, a high-pressure overflow valve and an oil way integrated distribution block; the oil can is characterized in that the oil can is arranged at the upper end of the oil drum; one side end of the oil drum is of a closed structure, the other side end of the oil drum is of an open structure, one side of the oil path integrated distribution block is installed at the outer end of the other side of the oil drum, and the motor is installed at the other side of the oil path integrated distribution block; the bidirectional gear pump is arranged at one side end of the oil path integrated distribution block and is positioned in the other side of the oil drum, and a power input shaft of the bidirectional gear pump is connected with a power output shaft of the motor through a coupler; the oil-way integrated distribution block is characterized in that a channel B and a channel A of the oil-way integrated distribution block are communicated with an oil port B and an oil port A of the bidirectional gear pump respectively, a lower oil drainage channel and a lower oil port are arranged at the lower end of the oil-way integrated distribution block, a fixed seat is arranged in the middle of the upper end of the oil-way integrated distribution block, a high-pressure overflow valve is arranged at the upper end in the fixed seat, an upper oil drainage channel is arranged at the upper end of the oil-way integrated distribution block, and the oil outlet of the high-pressure overflow valve is positioned at the upper end of the upper oil drainage oil duct; the lower end of the oil drum is arranged at the upper end of the oil cylinder; the lower oil inlet and outlet pipes at the lower ends of the lower oil ports of the oil way integrated distribution block and the upper end of the cylinder body of the oil cylinder are connected together through a high-pressure oil pipe; the shell is arranged at the outer side end of the motor, the oil drum, the bidirectional gear pump, the high-pressure overflow valve and the oil path integrated distribution block, a lifting handle is arranged at the upper end of the shell, and the power switch is arranged at the lower end of the front part of the lifting handle; sealing gaskets are respectively arranged between the motor and the oil path integrated distribution block and between the bidirectional oil cylinder and the oil path integrated distribution block; the oiler is matched with a kettle cover.

2. The hydraulic apparatus for removing and installing a bucket tooth pin of claim 1, wherein the cylinder is capable of supporting a plurality of elongated connecting rods of different lengths, and the elongated connecting rods are magnetically connected to the piston rod.

3. The hydraulic apparatus for disassembling and assembling bucket tooth pins of claim 1, wherein the lower oil port and the lower oil discharge passage are communicated with the inside of the passage a and the inside of the passage B, respectively.

4. The hydraulic apparatus for removing and installing a bucket tooth pin of claim 1, wherein the oil drain passage is in communication with the oil drum.

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